wgw15g120 wgw15g120 wgw15g120 wgw15g120 n n n n rev.a aug.2010 c o p y r igh t @ w i n s em i microelectronics c o . , lt d . , a l l ri g h t r e s er v ed . low low low low loss loss loss loss i i i i gbt gbt gbt gbt features 15a,1200 v ,v ce(sat ) ( t y p.=2.4v)@ i c =15a & t c = 100 low g ate c harge( t y p.= 85nc) npt t e c hnolog y , positive tempera t ure c oe ffi cient low emi pb-fr e e l ead plating; rohs compliant applications ge n eral purpose i nverter fre q uency c onverters induction heating(ih) uninter r upted power supply ( ups) absolute m a ximum r ating s ( t c =25 ) g g g g c c c c e e e e to to to to 3p(n) 3p(n) 3p(n) 3p(n) symbol parameter v alue unit v ces collector-emitter voltage 1 2 00 v i c dc collector cur r ent t c= 25 30 a t c= 100 15 a i cp collector pulse cur r ent t p l i mited by t j 45 a v ges gate-emitter voltage 20 v t sc short c ircuit w i thstand time v ge =10v , v ce 1200v, t j 15 0 10 s turn-off safe area v ce 1200v, t j 150 45 a p d total dissipation 150 w t j ope r ation j unction tempe r ature - 40 ~ 150 t stg storage tempe r atu r e -50 ~ 150 t l maximum lead tempe r atu r e for soldering purposes 300 thermal c haracteristics symbol parameter v a l ue unit min t y p max r qjc ther m al resistance , junction -to -case - - 0.6 /w r qja ther m al resistance , junction-to -ambient - - 40 /w
wgw15g120 wgw15g120 wgw15g120 wgw15g120 n n n n 2 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance electrical characteristics ( t c=25 ) ch a racteristics symbol t e st con d ition min t y p max unit gate-body leakage current i g e s v gs = 30 v ,v c e =0v - - 100 na collector-emitter breakdown voltage v (br)ces i c =0.5ma,v ge =0v 1200 - - v collector-emitter saturation voltage v ce( s at) - 2.4 3.5 v i c = 1 5a, v g e = 15v t c= 125 2.8 - t c= 150 3.0 - zero gate v o ltage collector current i ces - - 0.2 ma v ce = 1200 v , v ge =0v t c= 100 - - 2.0 t c= 150 - - 2.5 gate threshold v oltage v ge(th) v ce =v ge ,i d = 0.6 m a 4.5 - 6.5 v forw a rd t r ansconductance gfs v ce = 20 v , i d =15a - 10 - s short collector curre n t ic(sc) v ge =15 v , v ce =600, t sc <10 s - 90 - a t o tal g ate char g e q g v ce =960 v , i c =15a, v ge =15v - 85 - nc input capacitance c iss v ce =25 v , v gs =0 v , f=1mhz - 1700 2600 pf reverse transfer c apacitance c rss - 128 200 out p ut capacitance c oss - 880 140 switchi ng time t u rn-on delay time td(on) v ce = 600 v , i c =1 5 a r g = 56 ? - 25 - ns t u rn-on r ise time t r - 60 - t u rn-o f f delay time t d(o f f ) - 20 - t u rn-off fa l l t i me tf - 95 - t u rn-on ener g y e on v ce = 600 v , i c =1 5 a r g = 56 ? - 58 - mj t u rn-o f f ener g y e o f f - 32 - t o tal s w iitching energy e total - 26 - anti-parallet d iode characteristics ( t a=25 ) cha r acteristics symbol t e st con d ition min t y pe max unit forw a rd v oltage(diode) v dsf i s = 1 5 a,v gs =0v - - -2.7 v reverse recovery time t rr i s = 1 0 a,v gs =0 v , r =800v d i dr / dt = 7 5 0 a / s - 150 - ns reverse recovery c harge qrr - 1.2 - c note 1.repeativity rating :pulse w i dth limited by junction temper a ture 2.allo w ed number of short c ircuits:<1000; time 3 .pu ls e t e s t:pu l s e wi dth 300us,duty cycl e 2% 4 . essentially i ndepende n t of oper a ting tempera t ure. this transistor i s an electrostatic sensit i v e devi c e please handle w ith c aution
wgw15g120 wgw15g120 wgw15g120 wgw15g120 n n n n 3 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance fig.1 fig.1 fig.1 fig.1 out out out out char char char char a a a a c c c c te te te te r r r r isti isti isti isti c c c c s s s s fi fi fi fi g g g g .2 .2 .2 .2 s s s s a a a a tur tur tur tur a a a a tion tion tion tion volt volt volt volt a a a a ge ge ge ge ch ch ch ch a a a a ra ra ra ra c c c c t t t t e e e e ri ri ri ri s s s s ti ti ti ti c c c c s s s s fig.3 fig.3 fig.3 fig.3 saturation saturation saturation saturation voltage voltage voltage voltage v v v v s s s s case case case case t t t t e e e e mperature mperature mperature mperature fi fi fi fi g g g g .4 .4 .4 .4 l l l l oa oa oa oa d d d d curr curr curr curr e e e e nt nt nt nt v v v v s s s s fr fr fr fr e e e e qu qu qu qu e e e e n n n n c c c c y y y y fig.5 fig.5 fig.5 fig.5 capacitan capacitan capacitan capacitan c c c c e e e e ch ch ch ch a a a a ra ra ra ra c c c c te te te te r r r r istics istics istics istics fig.6 fig.6 fig.6 fig.6 s s s s w w w w i i i i tch tch tch tch i i i i ng ng ng ng l l l l o o o o ss ss ss ss v v v v s s s s gate gate gate gate resist resist resist resist a a a a nce nce nce nce
wgw15g120 wgw15g120 wgw15g120 wgw15g120 n n n n 4 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance fig.7 fig.7 fig.7 fig.7 t t t t urn-on urn-on urn-on urn-on chara chara chara chara c c c c te te te te r r r r isti isti isti isti c c c c s s s s v v v v s s s s gate gate gate gate resist resist resist resist a a a a nce nce nce nce f f f f i i i i g.9 g.9 g.9 g.9 t t t t u u u u rn- rn- rn- rn- o o o o n n n n ch ch ch ch a a a a ra ra ra ra c c c c t t t t e e e e ri ri ri ri s s s s ti ti ti ti c c c c s s s s v v v v s s s s collector collector collector collector current current current current fi fi fi fi g g g g . . . . 1 1 1 1 1 1 1 1 s s s s w w w w i i i i t t t t c c c c hi hi hi hi n n n n g g g g lo lo lo lo s s s s s s s s v v v v s s s s coll coll coll coll ec ec ec ec tor tor tor tor curr curr curr curr e e e e nt nt nt nt fig.8 fig.8 fig.8 fig.8 t t t t urn-off urn-off urn-off urn-off ch ch ch ch a a a a r r r r a a a a cte cte cte cte r r r r i i i i s s s s tics tics tics tics v v v v s s s s gate gate gate gate re re re re s s s s istance istance istance istance f f f f i i i i g. g. g. g. 1 1 1 1 0 0 0 0 fi fi fi fi g g g g .9 .9 .9 .9 t t t t u u u u rn- rn- rn- rn- o o o o ff ff ff ff ch ch ch ch a a a a ra ra ra ra c c c c t t t t e e e e r r r r i i i i s s s s ti ti ti ti c c c c s s s s v v v v s s s s collector collector collector collector current current current current fig.12 fig.12 fig.12 fig.12 out out out out gate gate gate gate ch ch ch ch a a a a rge rge rge rge ch ch ch ch a a a a r r r r a a a a cte cte cte cte r r r r istics istics istics istics
wgw15g120 wgw15g120 wgw15g120 wgw15g120 n n n n 5 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance fig.13 fig.13 fig.13 fig.13 for for for for w w w w a a a a rd rd rd rd char char char char a a a a c c c c te te te te r r r r istics istics istics istics fig.13 fig.13 fig.13 fig.13 stored stored stored stored chara chara chara chara c c c c te te te te r r r r istics istics istics istics fig.15 fig.15 fig.15 fig.15 rev rev rev rev e e e e r r r r s s s s e e e e re re re re c c c c o o o o v v v v er er er er y y y y curr curr curr curr e e e e nt nt nt nt char char char char a a a a c c c c te te te te r r r r istics istics istics istics fig.16 fig.16 fig.16 fig.16 rev rev rev rev e e e e r r r r s s s s e e e e re re re re c c c c o o o o v v v v er er er er y y y y t t t t ime ime ime ime ch ch ch ch a a a a ra ra ra ra c c c c te te te te r r r r istics istics istics istics fig.17 fig.17 fig.17 fig.17 maximum maximum maximum maximum safe safe safe safe op op op op e e e e ration ration ration ration a a a a r r r r ea ea ea ea fig.18 fig.18 fig.18 fig.18 t t t t u u u u rn-off rn-off rn-off rn-off safe safe safe safe operation operation operation operation a a a a rea rea rea rea
wgw15g120 wgw15g120 wgw15g120 wgw15g120 n n n n 6 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance fig.17 fig.17 fig.17 fig.17 maximum maximum maximum maximum safe safe safe safe op op op op e e e e ration ration ration ration a a a a r r r r ea ea ea ea
wgw15g120 wgw15g120 wgw15g120 wgw15g120 n n n n 7 /7 steady, steady, steady, steady, keep keep keep keep you you you you advance advance advance advance t t t t o o o o - - - - 3pn 3pn 3pn 3pn package package package package d d d d imension imension imension imension uni t : m m
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